Supercompilers for parallel and vector computers
Supercompilers for parallel and vector computers
Automated program recognition: a feasibility demonstration
Artificial Intelligence
Algorithmic skeletons: structured management of parallel computation
Algorithmic skeletons: structured management of parallel computation
The Fork95 parallel programming language: design, implementation, application
International Journal of Parallel Programming
Support of automatic parallelization with concept comprehension
Journal of Systems Architecture: the EUROMICRO Journal - Special issue on tools and environments for parallel program development
Applicability of Program Comprehension to Sparse Matrix Computations
Euro-Par '97 Proceedings of the Third International Euro-Par Conference on Parallel Processing
Program Comprehension Support for Knowledge-Based Parallelization
PDP '96 Proceedings of the 4th Euromicro Workshop on Parallel and Distributed Processing (PDP '96)
Pattern-Driven Automatic Parallelization
Scientific Programming
Retargeting Sequential Image-Processing Programs for Data Parallel Execution
IEEE Transactions on Software Engineering
Parallelizing scientific code with invasive interactive parallelization: a case study with reuseware
Proceedings of the 2008 compFrame/HPC-GECO workshop on Component based high performance
Parallelisation of sequential programs by invasive composition and aspect weaving
APPT'05 Proceedings of the 6th international conference on Advanced Parallel Processing Technologies
ICCS'05 Proceedings of the 5th international conference on Computational Science - Volume Part I
Automatic source code transformation for GPUs based on program comprehension
Euro-Par'11 Proceedings of the 2011 international conference on Parallel Processing - Volume 2
A SWP specification for sequential image processing algorithms
ACSAC'07 Proceedings of the 12th Asia-Pacific conference on Advances in Computer Systems Architecture
Extensible Recognition of Algorithmic Patterns in DSP Programs for Automatic Parallelization
International Journal of Parallel Programming
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The authors compare two systems for program comprehension targeted to support automatic parallelization: the PAP Recognizer, developed at Universities of Naples and Vienan and currently included into the Vienna Fortran Compilation System, and the PARAMAT concept recognizer, developed at Saarbrücken University. They illuminate the main differences, the advantages and disadvantages of each method, and show how both approaches may be integrated to combine the generality of one approach with the speed of the other one.